ua17-039 – Title: Two-Component and Three-Component Nanoparticles for the Enhanced Stability and Delivery of Glycopeptide Drugs Invention: This technology is comprised of two-component and three-component nanoparticles that will aid in peptide drug delivery systems that are capable of penetrating the Blood Brain Barrier (BBB). This method extends the lifetimes of glycopeptide drugs, allowing them to... Read More

ua17-080 – Title: Water Soluble Nanoparticles for the Detection of Radioisotope Activity Invention: The invention is scintillant nanoparticles (SNPs), which are core-shell nanoparticles for sensitive detection of radioisotope activity. These SNPs are made from a polystyrene core of variable diameter, with a thin silica shell deposited on the outside of the core. The hydrophobic matrix facilitates... Read More

ua17-081 – Title: Radioisotope Responsive Nanomaterial for Detection of S35 Invention: The invention consists of thiol-functionalized nanoparticles for quantifying S35 cysteine. The S35 isotope is a better tracer for sensitive detection of sulfur-containing analytes and contributes to insight about the redox network of reactions inside cells. Background: Cysteine is a small thiol that plays a... Read More

ua16-149 – Title: Approach to Tuning Phononic Crystals Invention: This technology is an approach that gives the user the ability to tune phononic crystals and acoustic metamaterials to have specific quantum computing properties. Background: Metamaterials, artificially fabricated materials in which small structures can be arranged within a material in order, can give said material new... Read More

ua15-174 – Title: Process for Printing Metal Nanowires from a Microreactor Mold Invention: This invention provides a method for printing nanowires by depositing Ligandless metallic nanoparticles in a pattern on a surface using a microreactor mold. A solution containing the nanoparticles is flowed through channels in the mold depositing nanoparticles when heated. Removing the mold from the surface... Read More

ua15-060 – By adding external biologically active proteins we can control the biological properties separately from medical properties and by controlling the protein concentrations (&amp; other factors) we can separately control the mechanical properties and provide a tunable safe assembling protein scaffold in a broad range of mechanical properties. The present invention provides a dual-component... Read More

ua15-081 – Invention: This technology provides for enhancing capacitor power density, capacitive retention, and stability by using self growing nano particles on the electrodes of capacitors. Specifically, double-layer capacitance achieve electrostatic storage by separation of charge in a Helmholtz double layer at the interface between the surface of a conductive electrode and electrolyte. The... Read More

ua15-073 – Invention: Fullerene can be engineered into many different shapes and sizes. The self-assemble fullerene fabrication can lead to a large structural variations depending on the methodology use in the procedure. Since Fullerene was discovered in 1985, the structural variations on fullerenes have expanded from just simple individual clusters. This technology determine a method to synthesis... Read More

ua15-029 – Researchers at the University of Arizona have succeeded in fabricating 3D nanostructured carbon electrodes in a novel method that is fast and inexpensive, using graphene and magnetic field aligned carbon nanotubes. The highly porous structure, in combination with enhanced networks of conductive paths in the electrode has been shown to increase active surface area of the electrode by... Read More

ua15-061 – Invention: The Nobel Prize Committee in 2007 stated that, “Giant magnetoresistance (GMR) can be considered one of the first real applications of the promising field of nanotechnology.” Nanomagnetic materials and products in general and GMR in particular still represent the most mature and widely used examples of nanotechnology and nanoscale materials. This technology is no except to this... Read More

ua11-052 – Isotopically-enriched graphene and isotope junctions are epitaxially grown on a catalyst substrate using a focused carbon ion beam technique. The focused carbon ion beam is filtered to pass substantially a single ion species including a single desired carbon isotope. The ion beam and filtering together provide a means to selectively isotopically-enrich the epitaxially grown graphene from... Read More

ua11-070 – This invention relates to the synthesis of carbon nanostructures such as graphene, fullerenes and nano-tubes, and more particular to the synthesis of such nanostructures from carbon-excess explosives in supercritical fluid. Carbon nanostructures are synthesized from carbon-excess explosives having a negative oxygen balance. A supercritical fluid provides an environment that safely... Read More